Testing the Difference Between Two Means: Dependent Samples Sec 9.3 Bluman, Chapter 9
Dependent Samples Samples are considered to be dependent samples when the subjects are paired or matched in some way.
9.3 Testing the Difference Between Two Means: Dependent Samples When the values are dependent, do a t test on the differences. Denote the differences with the symbol D, the mean of the population differences with μD, and the sample standard deviation of the differences with sD. Bluman, Chapter 9
Some examples Medicine Education Fitness Can you think of some?
Example: Vitamin for Strength A physical education director claims by taking a special vitamin, a weight lifter can increase his strength. Eight athletes are selected and given a test of strength, using the standard bench press. After 2 weeks of regular training, supplemented with the vitamin, they are tested again. Test the effectiveness of the vitamin regimen at α = 0.05. Each value in the data represents the maximum number of pounds the athlete can bench-press. Assume that the variable is approximately normally distributed. Bluman, Chapter 9
Example 9-6: Vitamin for Strength Step 1: State the hypotheses and identify the claim. H0: μD = 0 and H1: μD < 0 (claim) Step 2: Find the critical value. The degrees of freedom are n – 1 = 8 – 1 = 7. The critical value for a left-tailed test with α = 0.05 is t = -1.895. Bluman, Chapter 9
Example 9-6: Vitamin for Strength Step 3: Compute the test value. Before ( X ) After ( X ) D = X – X D 2 1 2 1 2 210 219 - 9 81 230 236 - 6 36 182 179 3 9 205 204 1 1 262 270 - 8 64 253 250 3 9 219 222 - 3 9 216 216 Σ D = - 19 Σ D 2 = 209 Bluman, Chapter 9
Example 9-6: Vitamin for Strength Step 3: Compute the test value. Step 4: Make the decision. Do not reject the null. Step 5: Summarize the results. There is not enough evidence to support the claim that the vitamin increases the strength of weight lifters. Bluman, Chapter 9
Chapter 9 Testing the Difference Between Two Means, Two Proportions, and Two Variances Section 9-3 Example 9-7 Page #495 Bluman, Chapter 9
Hypotheses …. See page 493 H0:D=0 H0:D > 0 H0:D < 0 Two tailed Left tailed Right Tailed H0:D=0 H0:D > 0 H0:D < 0 H1: D 0 H1: D < 0 H1: D > 0
Example 9-7: Cholesterol Levels A dietitian wishes to see if a person’s cholesterol level will change if the diet is supplemented by a certain mineral. Six subjects were pretested, and then they took the mineral supplement for a 6-week period. The results are shown in the table. (Cholesterol level is measured in milligrams per deciliter.) Can it be concluded that the cholesterol level has been changed at α = 0.10? Assume the variable is approximately normally distributed. Bluman, Chapter 9
Example 9-7: Cholesterol Levels Step 1: State the hypotheses and identify the claim. H0: μD = 0 and H1: μD 0 (claim) Step 2: Find the critical value. The degrees of freedom are 5. At α = 0.10, the critical values are ±2.015. Bluman, Chapter 9
Example 9-7: Cholesterol Levels Step 3: Compute the test value. Before ( X ) After ( X ) D = X – X D 2 1 2 1 2 210 190 20 400 235 170 65 4225 208 210 -2 4 190 188 2 4 172 173 - 1 1 244 228 16 256 Σ D = 100 Σ D 2 = 4890 Bluman, Chapter 9
Example 9-7: Cholesterol Levels Step 3: Compute the test value. Step 4: Make the decision. Do not reject the null. Step 5: Summarize the results. There is not enough evidence to support the claim that the mineral changes a person’s cholesterol level. Bluman, Chapter 9
Confidence Interval for the Mean Difference Formula for the t confidence interval for the mean difference Bluman, Chapter 9
Chapter 9 Testing the Difference Between Two Means, Two Proportions, and Two Variances Section 9-3 Example 9-8 Page #498 Bluman, Chapter 9
Example 9-8: Confidence Intervals Find the 90% confidence interval for the difference between the means for the data in Example 9–7. Since 0 is contained in the interval, the decision is to not reject the null hypothesis H0: μD = 0. Bluman, Chapter 9
On your own Study the examples in section 9.3 Sec 9.3 page 500 #1-9 odds Bluman, Chapter 9